Earliest Carboniferous stromatolites from the Qianheishan Formation, Dashuigou section, northwestern China: Implications for microbial proliferation after the end‐Devonian mass extinction

Earliest Carboniferous stromatolites were found in the Qianheishan (QHS) Formation in the Dashuigou section, Gansu Province, northwestern China. These stromatolites are exposed in a conglomerate‐dominated succession of about 22.5 m in thickness, which can be traced laterally for more than 200 m in o...

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Bibliographic Details
Published in:Geological journal (Chichester, England) England), 2020-05, Vol.55 (5), p.3361-3376
Main Authors: Yao, Le, Aretz, Markus, Chen, Jitao, Qi, Yuping, Wang, X‐d.
Format: Article
Language:English
Subjects:
Biosphere
Calcification
Calcite
Carboniferous
Concretions
Conglomerates
Crusts
Devonian
earliest Carboniferous
end‐Devonian
Fossils
Grains
Hangenberg extinction
Intertidal environment
Laminates
Lamination
Mass extinctions
microbial proliferation
Microorganisms
Morphology
northwestern China
Outcrops
Proliferation
Quartz
Sandstone
Sciences of the Universe
Sea level rise
Sedimentary facies
Sedimentary rocks
stromatolite
Stromatolites
Thickness
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Summary:Earliest Carboniferous stromatolites were found in the Qianheishan (QHS) Formation in the Dashuigou section, Gansu Province, northwestern China. These stromatolites are exposed in a conglomerate‐dominated succession of about 22.5 m in thickness, which can be traced laterally for more than 200 m in outcrop. They consist mainly of micrite, peloids, oncoids, silt‐sized quartz grains, and sparry calcite with rare fine to coarse quartz grains and bioclasts. The occurrence of marine fossils (e.g., bryozoans) and fenestral structures in the stromatolites suggests that they developed in intertidal environments. Three types of stromatolite laminae were distinguished including micritic laminae, grain‐dominated mixed laminae, and micrite‐dominated mixed laminae. These laminae are separated by thin micritic crusts and form two lamination styles of repetitive lamination and alternating lamination. The development of grain‐rich and micrite‐rich laminae in the stromatolites implies that they were formed by the combination of microbial baffling, binding, and calcification. Facies analysis suggests that growth and demise of the stromatolites were controlled by relative sea‐level changes. They grew during a continuous relative sea‐level rise, indicated by variations in their thickness and morphology. Stromatolites change from thin‐bedded laminar forms in the lower part of the studied interval to medium‐bedded wavy‐laminar forms and thick‐bedded domal forms in the middle and upper parts, respectively. Their demise was triggered by dramatic relative sea‐level fall, evidenced from the sandstone facies overlying the stromatolite interval. The occurrence of the QHS stromatolites provides an excellent example for microbial proliferation and profound changes in the marine biosphere after the end‐Devonian Hangenberg extinction event.
ISSN:0072-1050
1099-1034
DOI:10.1002/gj.3588